Notes

Determinants of patient-reported xerostomia among long-term oropharyngeal cancer malignancy heirs.
002), and at rest in sitting versus at rest in prone (p = 0.003). Further research is needed to assess DPCM-specific SWE in symptomatic individuals and compare DPCM shear modulus to electromyography across contraction intensities.Colletotrichum fructicola, is an important fungal pathogen that has been reported to cause pear (Pyrus) anthracnose in China, resulting in substantial economic losses due to severe defoliation and decreased fruit quality and yield. In the search for novel strategies to control pear anthracnose, Lysobacter strains have drawn a great deal of attention due to their high-level production of extracellular enzymes and bioactive metabolites. In the present study, we compared four Lysobacter strains including Lysobacter enzymogenes OH11, Lysobacter antibioticus OH13, Lysobacter gummosus OH17 and Lysobacter brunescens OH23 with respect to their characteristics and activity against pear anthracnose caused by C. fructicola. The results showed that the evaluated Lysobacter species presented various colony morphologies when cultured on different media and were proficient in producing protease, chitinase, cellulase and glucanase, with L. enzymogenes OH11 showing typical twitching motility. L. enzymogenes OH11 and L. gummosus OH17 showed potent activity against the tested fungi and oomycetes. L. gummosus OH17 produced HSAF (heat-stable antifungal factor) which was demonstrated to be a major antifungal factor in L. enzymogenes OH11 and C3. Furthermore, L. antibioticus OH13 and L. brunescens OH23 exhibited strong antibacterial activity, especially against Xanthomonas species. Cultures of L. enzymogenes OH11 protected pear against anthracnose caused by C. fructicola, and the in vivo results indicated that treatment with an L. enzymogenes OH11 culture could decrease the diameter of lesions in pears by 35 % and reduce the severity of rot symptoms compared to that observed in the control. In the present study, we systemically compared four Lysobacter strains and demonstrated that they have strong antagonistic activity against a range of pathogens, demonstrating their promise in the development of biological control agents.The antifungal agent amphotericin B (AmB) is a polyketide produced by Streptomyces nodosus. The synthetic precursors of the amphotericin macrolactone skeleton are acetyl-CoA, malonyl-CoA and methylmalonyl-CoA. The genome sequence of the wild type S. nodosus ATCC14899 revealed a type II polyketide synthase (PKS) competing for malonyl-CoA. The same competitive branch was sequenced and verified in a mutant named S. selleck chemical nodosus ZJB2016050 (S. nodosus N3) screened in our lab. The transcriptome of the secondary metabolic synthetic gene cluster comparisons suggested that type II PKS (PKS5) competition is a factor in low production. The deletion of the PKS5 gene led to the titer of AmB improved from 5.01 g/L to 6.32 g/L while the by-product amphotericin A (AmA) reduced from 0.51 g/L to 0.12 g/L. A sequence of genes including PKS amphA, acc1, mme and mcm were overexpressed in a ΔPKS5 mutant, resulting in improved production AmB from 5.01 g/L to 7.06 g/L in shake flasks at 96 h. The yield of AmB and AmA in a 5 L bioreactor at 144 h was 15.6 g/L and 0.36 g/L, respectively. The intracellular reducibility of the wild type, mutagenesis type and genetically engineered type were detected, which was first found to be related to the by-product AmA. The increment of skeleton biosynthesis may consume more NADPH and reduces AmphC ER5 domain reduction. This study can be implemented for other polyketides in industrial production.Pyricularia oryzae is a plant pathogenic fungus that severely affects rice production. Past studies, primarily using mutants generated by spontaneous mutations or artificial physical and chemical mutagenesis, have determined that melanin is required for appressorium turgor, penetration, and virulence of P. oryzae. However, these roles need to be verified by gene knockout and/or overexpression in different strains considering the potential differences in the level of virulence. Here, we confirmed the indispensable roles of melanin in the development and virulence of P. oryzae by knocking out and over-expressing three melanin synthesis genes (ALB1, RSY1, and BUF1) in two wild-type strains (Guy11 and 70-15). Deletion of ALB1, RSY1, or BUF1 led to loss of melanin and virulence in both strains. ALB1, RSY1 and BUF1 in Guy11, and BUF1 in 70-15 were required for conidiation, respectively. ALB1, RSY1, and BUF1 were required for conidial resistance to environmental stresses (UV exposure, oxidization, and freezing damage) in both strains. Guy11 cells had greater amounts of melanin and more transcripts of melanin synthesis genes than 70-15 cells. Paired culture experiments between the deletion or over-expression mutants of melanin synthesis genes suggested that the reaction catalyzed by Buf1, but not Alb1 and Rsy1, was likely a rate-limiting step in melanin biosynthesis in 70-15. These results expand our understanding on melanin and its synthesis genes in P. oryzae as well as its responses to biotic and abiotic environments.Terasi is an Indonesian shrimp paste that is traditionally fermented and is widely consumed by Indonesian people. Terasi is produced by utilizing endogenous bacteria from raw materials as starters. Due to the variation in endogenous bacteria during production, terasi of varying quality is produced. The objectives of this study were to investigate the effects of starters on the physicochemical and sensory properties of terasi. The effects of individual or combination inoculation of Lactobacillus plantarum SB7 and Bacillus amyloliquefaciens BC9 were compared to those of noninoculation during a two-week period of terasi production. The starters darkened the color of the terasi. The terasi produced with the starters had higher protein contents (62.93-64.80 %) than those of the noninoculated terasi (63.66-65.80 %). Although proteolysis was weakly affected by the starters, the starters reduced the terasi fermentation period. The combination starter inoculation resulted in a high glutamic acid level (44284.8 ± 231.22 mg/kg). Volatile alcohols were more abundant in the starter-inoculated terasi than in the noninoculated terasi. Assessments of the sensory parameters by panelists suggested a preference for inoculated terasi. In conclusion, the addition of starters (L. plantarum SB7 and B. amyloliquefaciens BC9) in terasi production improved the physicochemical and sensory properties of the terasi.Mycobacterium tuberculosis Rv2140c is a function unknown conserved phosphatidylethanolamine-binding protein (PEBP), homologous to Raf kinase inhibitor protein (RKIP) in human beings. To delineate its function, we heterologously expressed Rv2140c in a non-pathogenic M. smegmatis. Quantitative phosphoproteomic analysis between two recombinant strains Ms_Rv2140c and Ms_vec revealed that Rv2140c differentially regulate 425 phosphorylated sites representing 282 proteins. Gene ontology GO, and a cluster of orthologous groups COG analyses showed that regulated phosphoproteins by Rv2140c were mainly associated with metabolism and cellular processes. Rv2140c significantly repressed phosphoproteins involved in signaling, including serine/threonine-protein kinases and two-component system, and the arabinogalactan biosynthesis pathway phosphoproteins were markedly up-regulated, suggesting a role of Rv2140c in modulating cell wall. Consistent with phosphoproteomic data, Rv2140c altered some phenotypic properties of M. smegmatis such as colony morphology, cell wall permeability, survival in acidic conditions, and active lactose transport. In summary, we firstly demonstrated the role of PEBP protein Rv2140c, especially in phosphorylation of mycobacterial arabinogalactan biosynthesis proteins.In many regions of the world, the incidence and extent of drought spells are predicted to increase which will create considerable pressure on global agricultural yields. Most likely among all the abiotic stresses, drought has the strongest effect on soil biota and plants along with complex environmental effects on other ecological systems. Plants being sessile appears the least resilient where drought creates osmotic stress, limits nutrient mobility due to soil heterogeneity, and reduces nutrient access to plant roots. link2 Drought tolerance is a complex quantitative trait controlled by many genes and is one of the difficult traits to study and characterize. Nevertheless, existing studies on drought have indicated the mechanisms of drought resistance in plants on the morphological, physiological, and molecular basis and strategies have been devised to cope with the drought stress such as mass screening, breeding, marker-assisted selection, exogenous application of hormones or osmoprotectants and or engineering forckly addressing emerging challenges in agriculture. Furthermore, large volumes of rainwater and wastewater generated daily can be smartly recycled and reused for agriculture. Farmers and other stakeholders will get a proper knowledge-exchange and an ideal road map to utilize available technologies effectively and to translate the measures into successful plant-water stress management. The proposed approach is cost-effective, eco-friendly, user-friendly, and will impart long-lasting benefits on agriculture and ecosystem and reduce vulnerability to climate change.
Autism spectrum disorder (ASD) is a neurodevelopmental disorder frequently associated with epilepsy and epilepsy is a leading cause of death in ASD patients. Despite growing interest in genetic, neurophysiological and clinical overlaps, data on ictal electroencephalographic (EEG) recordings in ASD are lacking since behavioral disorders often make it difficult to obtain EEG recordings. We examined ictal EEG features in a consecutive series of patients with ASD and epilepsy.

We retrospectively identified 400 consecutive patients with ASD and epilepsy at our Level 4 Epilepsy center between 2015 and 2019; 45 had at least one EEG-recorded seizure captured. Demographics, age of nonfebrile seizure onset, age of ASD diagnosis, language, magnetic resonance imagining findings, genetic testing and EEG studies were reviewed. Seizures were classified by semiologic and electrographic features. Ictal findings were analyzed.

A total of 497 seizures were captured in 45 patients 20 patients with focal onset epilepsy had Gs in this heterogenous population.
Our study is the first to analyze a large set of ictal data in patients with autism spectrum disorder, a population traditionally difficult to obtain ictal recordings. link3 Our results confirm the diverse spectrum of seizure types and provide clinical-EEG correlates of seizures in ASD patients. Both focal-onset and generalized-onset seizures were recorded, confirming that ASD patients have higher rates of both focal and generalized epilepsy syndromes. Among patients with focal epilepsy, temporal and frontal onsets were frequent, suggesting the possibility of epilepsy surgery or brain stimulation. EEG to classify seizures and epilepsies is critical to determine therapeutic options and effort should be made to obtain EEGs in this heterogenous population.Neurodegenerative diseases (NDs) are common chronic diseases related to progressive damage of the nervous system. Globally, the number of people with an ND is dramatically increasing consistent with the fast aging of society and one of the common features of NDs is the abnormal aggregation of diverse proteins. Autophagy is the main process by which misfolded proteins and damaged organelles are removed from cells. It has been found that the impairment of autophagy is associated with many NDs, suggesting that autophagy has a vital role in the neurodegeneration process. Recently, more and more studies have reported that autophagy inducers display a protective role in different ND experimental models, suggesting that enhancement of autophagy could be a potential therapy for NDs. In this review, the evidence for beneficial effects of traditional Chinese medicine (TCM) regulate autophagy in the models of Alzheimer's disease (AD), Parkinson's disease (PD), and other NDs are presented and common autophagy-related mechanisms are identified.
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